DE338943C - Diaphragm pressure regulator - Google Patents

Description

The better known pressure reduction for gases have the disadvantage that they do their job with respect to light-off, permeability and do not properly solve the evenness of the outflowing gas. There are therefore undesirable fluctuations in pressure and in the amount of combustion gas. Such devices are such. B. unreliable in the initiation and implementation of artificial breathing, because there is always one here even pressure is essential. Also for the oxy-fuel cutting and welding process the known pressure reducers are not perfectly suitable, since a good result can only be achieved if the greatest uniformity is achieved the pressure, the amount and therefore the composition of the gas consumed can be.

The purpose of the invention is now to provide a pressure reducer for gases, as above cited disadvantages do not adhere and in connection with all devices in question works flawlessly in every way, as it starts without delay or loss of pressure, has the highest permeability, d. H.

releases the largest amount of relaxed gas, and the outflowing gas is always more even Amount and delivers under constant pressure.

In the schematic drawing, an embodiment of the invention is in longitudinal section shown.

When the pressure drops in the regulator body 13, the valve 5 and 6 by means of Rod 7 moving membrane 8 opens the high tension gases to escape from the to be brought into connection with the container, not shown, for the compressed gas, Connection piece 1 protruding into the pressure reducer into space 13. The load pressure the membrane 8 is carried out by coil springs or by the plunger 10 more or less strong compression or deeper screwing regulated as required. The valve 5 and 6 is either a single or double seat valve. The transmission 7 is designed either as a simple rod or as a lever. The membrane 8 is in their Effect of the pressure of the from 1 in the room 13 outflowing gas is not directly influenced, since it is closed off from space 13 by a wall 11 rather, it is only under the influence of the pressure in space 12, the separates the wall 11 in the pressure reducer and its outlet opening into the outlet connection of the controller opens. The pressure in 12 is determined by the outflow velocity of the determined from 14 escaping gas.

The essence of the invention is that the controller body in two rooms dividing wall 11 is elastic and arranged so that two rooms with different large volume arise, namely space 12 on the regulating membrane is essential smaller than space 13 on the valve.

The greater the speed with which the pressure below the membrane (in space 12) adapts to the changing operating conditions of the controller, the faster the membrane becomes open or close, so the faster power surges etc. are compensated, the more evenly the regulator will work in terms of pressure and delivery rates.

• The speed at which the pressure prevailing in space 12 below the regulating membrane is adjusted according to the operating conditions is now dependent on the pressure difference φ between space 13 and the extraction line, ie on the flow speed of the extracted gas, but also on the volume of the frame 12. The greater the pressure difference φ, the greater it is

ίο and the smaller the volume 12 is.

In the subject matter of the invention, the volume 12 is now not only of its order of magnitude adapted to the fluctuating operating conditions by the membrane 8, but also by the elastic partition 11. If there is a pressure drop in the line z. B., so with increasing Flow rate of the sampling gas, the pressure in space 12 drops, namely faster than in room 13, which is larger than room 12 and refilled from the connecting piece will. The membrane 8 bends, but so does the elastic partition 11, and both reduce space 12 faster than could be done by membrane 8 alone.

The pressure in space 12 necessary for the equilibrium state of the controller is therefore reached faster, and the membrane 8 adjusts the valve faster than without an elastic partition 11. In the event of a shock wave in the line, the flow velocity increases of the sampling gas drops, the pressure in space 12 as soon as the shock wave occurs Has reached nozzle opening 15. X »ie membrane 8 therefore bends back from this moment in the sense of the valve closure and would Enlarge the space 12, if the membrane 11 does not initially also expand, the space 12 shrinking, would bend further, as it would still bend under the pressure of the from the first open valve after-flowing gas is available, which at the beginning of the considerable amount of this outflowing gas grows faster than that in room I2. Room 12 therefore remains small and takes on the pressure that is necessary to establish the equilibrium position more quickly.

Claims (1)

Patent claim: Diaphragm pressure regulator with single or double seat valve, characterized in that between membrane and valve an elastic, the regulator body in two spaces with different volumes / divides Wall is provided, the outlet opening of which opens into the outlet of the regulator. For this purpose ι sheet of drawings.